Abstract
AbstractStudying parallel evolution allows us to draw conclusions about the repeatability of adaptive evolution. Whereas populations likely experience similar selective pressures in similar environments, it is not clear if this will always result in parallel divergence of ecologically relevant traits. Our study investigates the extent of parallelism associated with the evolution of pelvic spine reduction in brook stickleback populations. We find that populations with parallel divergence in pelvic spine morphology do not exhibit parallel divergence in head and body morphology but do exhibit parallel divergence in diet. In addition, we compare these patterns associated with pelvic reduction in brook stickleback to well-studied patterns of divergence between spined and unspined threespine stickleback. Whereas spine reduction is associated with littoral habitats and a benthic diet in threespine stickleback, spine reduction in brook stickleback is associated with a planktonic diet. Hence, we find that pelvic spine divergence is associated with largely non-parallel ecological consequences across species.
Publisher
Cold Spring Harbor Laboratory
Reference58 articles.
1. Adams, D. C. , Collyer, M. L. , and Kaliontzopoulou. 2020. Geomorph: software for geometric morphometrics. R package (Version 3.2.1). https://cran.r-project.org/package=geomorph.
2. Sexual dimorphism of head morphology in three-spined stickleback Gasterosteus aculeatus
3. Phenotypic variation and sexual dimorphism in anadromous threespine stickleback: implications for postglacial adaptive radiation
4. Alberta Environment and Parks. (Accessed 2021, June 1). Fish and Wildlife Information Management System. https://www.alberta.ca/fisheries-and-wildlife-management-information-system-overview.aspx
5. Alberta Wilderness Association (AWA). (Accessed 2020, March 31). Parkland Natural Region: albertawilderness.ca/issues/wildlands/parkland/#parentHorizontalTab2